Present Status of the KSTAR Superconducting Magnet System Development

Keeman Kim, H. K. Park, K. R. Park, B. S. Lim, S. I. Lee, M. K. Kim, Y. Chu, W. H. Chung, S. H. Baek, J. Y. Choi, H. Yonekawa, A. Chertovskikh, Y. B. Chang, J. S. Kim, C. S. Kim, D. J. Kim, N. H. Song, K. P. Kim, Y. J. Song, I. S. WooW. S. Han, D. K. Lee, D. W. Song, J. S. Park, G. S. Lee, H. J. Lee, T. K. Ko, S. J. Lee

Research output: Contribution to journalConference article

Abstract

The Mission of Korea Superconducting Tokamak Advanced Research (KSTAR) Project is to develop a steady-state-capable advanced superconducting tokamak for estab-lishing a scientific and technological basis for an attractive fusion reactor. Because the KSTAR mission includes the achievement of a steady-state-capable operation, the use of superconducting coils is an obvious choice for the magnet system. The KSTAR superconducting magnet system consists of 16 TF (Toroidal Field) and 14 PF (Poloidal Field) coils. Both of the TF and PF coil system use internally-cooled Cable-In-Conduit Conductors (CICC). The TF coil system provides a .field of 3.5 T at a plasma center and the PF coil system is able to provide a flux swing of 17 V-sec. The major achievement in KSTAR magnet system development includes the development of CICC, the development of a full size TF model coil, the development of a background magnetic field generation coil system, the construction of a large scale superconducting magnet and CICC test facility. TF and PF coils are in the stage of the fabrication for the KSTAR completion in the year 2005.

Original languageEnglish
Number of pages1
JournalIEEE International Conference on Plasma Science
Publication statusPublished - 2003 Oct 17
Event2003 IEEE International Conference on Plasma Science - Jeju, Korea, Republic of
Duration: 2003 Jun 22003 Jun 5

Fingerprint

field coils
Superconducting magnets
Korea
superconducting magnets
coils
conductors
Magnets
magnets
fusion reactors
Fusion reactors
research projects
test facilities
Test facilities
cables
Cables
Magnetic fields
Fluxes
Plasmas
Fabrication
fabrication

All Science Journal Classification (ASJC) codes

  • Atomic and Molecular Physics, and Optics
  • Condensed Matter Physics
  • Electrical and Electronic Engineering

Cite this

Kim, K., Park, H. K., Park, K. R., Lim, B. S., Lee, S. I., Kim, M. K., ... Lee, S. J. (2003). Present Status of the KSTAR Superconducting Magnet System Development. IEEE International Conference on Plasma Science.
Kim, Keeman ; Park, H. K. ; Park, K. R. ; Lim, B. S. ; Lee, S. I. ; Kim, M. K. ; Chu, Y. ; Chung, W. H. ; Baek, S. H. ; Choi, J. Y. ; Yonekawa, H. ; Chertovskikh, A. ; Chang, Y. B. ; Kim, J. S. ; Kim, C. S. ; Kim, D. J. ; Song, N. H. ; Kim, K. P. ; Song, Y. J. ; Woo, I. S. ; Han, W. S. ; Lee, D. K. ; Song, D. W. ; Park, J. S. ; Lee, G. S. ; Lee, H. J. ; Ko, T. K. ; Lee, S. J. / Present Status of the KSTAR Superconducting Magnet System Development. In: IEEE International Conference on Plasma Science. 2003.
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title = "Present Status of the KSTAR Superconducting Magnet System Development",
abstract = "The Mission of Korea Superconducting Tokamak Advanced Research (KSTAR) Project is to develop a steady-state-capable advanced superconducting tokamak for estab-lishing a scientific and technological basis for an attractive fusion reactor. Because the KSTAR mission includes the achievement of a steady-state-capable operation, the use of superconducting coils is an obvious choice for the magnet system. The KSTAR superconducting magnet system consists of 16 TF (Toroidal Field) and 14 PF (Poloidal Field) coils. Both of the TF and PF coil system use internally-cooled Cable-In-Conduit Conductors (CICC). The TF coil system provides a .field of 3.5 T at a plasma center and the PF coil system is able to provide a flux swing of 17 V-sec. The major achievement in KSTAR magnet system development includes the development of CICC, the development of a full size TF model coil, the development of a background magnetic field generation coil system, the construction of a large scale superconducting magnet and CICC test facility. TF and PF coils are in the stage of the fabrication for the KSTAR completion in the year 2005.",
author = "Keeman Kim and Park, {H. K.} and Park, {K. R.} and Lim, {B. S.} and Lee, {S. I.} and Kim, {M. K.} and Y. Chu and Chung, {W. H.} and Baek, {S. H.} and Choi, {J. Y.} and H. Yonekawa and A. Chertovskikh and Chang, {Y. B.} and Kim, {J. S.} and Kim, {C. S.} and Kim, {D. J.} and Song, {N. H.} and Kim, {K. P.} and Song, {Y. J.} and Woo, {I. S.} and Han, {W. S.} and Lee, {D. K.} and Song, {D. W.} and Park, {J. S.} and Lee, {G. S.} and Lee, {H. J.} and Ko, {T. K.} and Lee, {S. J.}",
year = "2003",
month = "10",
day = "17",
language = "English",
journal = "IEEE International Conference on Plasma Science",
issn = "0730-9244",
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Kim, K, Park, HK, Park, KR, Lim, BS, Lee, SI, Kim, MK, Chu, Y, Chung, WH, Baek, SH, Choi, JY, Yonekawa, H, Chertovskikh, A, Chang, YB, Kim, JS, Kim, CS, Kim, DJ, Song, NH, Kim, KP, Song, YJ, Woo, IS, Han, WS, Lee, DK, Song, DW, Park, JS, Lee, GS, Lee, HJ, Ko, TK & Lee, SJ 2003, 'Present Status of the KSTAR Superconducting Magnet System Development', IEEE International Conference on Plasma Science.

Present Status of the KSTAR Superconducting Magnet System Development. / Kim, Keeman; Park, H. K.; Park, K. R.; Lim, B. S.; Lee, S. I.; Kim, M. K.; Chu, Y.; Chung, W. H.; Baek, S. H.; Choi, J. Y.; Yonekawa, H.; Chertovskikh, A.; Chang, Y. B.; Kim, J. S.; Kim, C. S.; Kim, D. J.; Song, N. H.; Kim, K. P.; Song, Y. J.; Woo, I. S.; Han, W. S.; Lee, D. K.; Song, D. W.; Park, J. S.; Lee, G. S.; Lee, H. J.; Ko, T. K.; Lee, S. J.

In: IEEE International Conference on Plasma Science, 17.10.2003.

Research output: Contribution to journalConference article

TY - JOUR

T1 - Present Status of the KSTAR Superconducting Magnet System Development

AU - Kim, Keeman

AU - Park, H. K.

AU - Park, K. R.

AU - Lim, B. S.

AU - Lee, S. I.

AU - Kim, M. K.

AU - Chu, Y.

AU - Chung, W. H.

AU - Baek, S. H.

AU - Choi, J. Y.

AU - Yonekawa, H.

AU - Chertovskikh, A.

AU - Chang, Y. B.

AU - Kim, J. S.

AU - Kim, C. S.

AU - Kim, D. J.

AU - Song, N. H.

AU - Kim, K. P.

AU - Song, Y. J.

AU - Woo, I. S.

AU - Han, W. S.

AU - Lee, D. K.

AU - Song, D. W.

AU - Park, J. S.

AU - Lee, G. S.

AU - Lee, H. J.

AU - Ko, T. K.

AU - Lee, S. J.

PY - 2003/10/17

Y1 - 2003/10/17

N2 - The Mission of Korea Superconducting Tokamak Advanced Research (KSTAR) Project is to develop a steady-state-capable advanced superconducting tokamak for estab-lishing a scientific and technological basis for an attractive fusion reactor. Because the KSTAR mission includes the achievement of a steady-state-capable operation, the use of superconducting coils is an obvious choice for the magnet system. The KSTAR superconducting magnet system consists of 16 TF (Toroidal Field) and 14 PF (Poloidal Field) coils. Both of the TF and PF coil system use internally-cooled Cable-In-Conduit Conductors (CICC). The TF coil system provides a .field of 3.5 T at a plasma center and the PF coil system is able to provide a flux swing of 17 V-sec. The major achievement in KSTAR magnet system development includes the development of CICC, the development of a full size TF model coil, the development of a background magnetic field generation coil system, the construction of a large scale superconducting magnet and CICC test facility. TF and PF coils are in the stage of the fabrication for the KSTAR completion in the year 2005.

AB - The Mission of Korea Superconducting Tokamak Advanced Research (KSTAR) Project is to develop a steady-state-capable advanced superconducting tokamak for estab-lishing a scientific and technological basis for an attractive fusion reactor. Because the KSTAR mission includes the achievement of a steady-state-capable operation, the use of superconducting coils is an obvious choice for the magnet system. The KSTAR superconducting magnet system consists of 16 TF (Toroidal Field) and 14 PF (Poloidal Field) coils. Both of the TF and PF coil system use internally-cooled Cable-In-Conduit Conductors (CICC). The TF coil system provides a .field of 3.5 T at a plasma center and the PF coil system is able to provide a flux swing of 17 V-sec. The major achievement in KSTAR magnet system development includes the development of CICC, the development of a full size TF model coil, the development of a background magnetic field generation coil system, the construction of a large scale superconducting magnet and CICC test facility. TF and PF coils are in the stage of the fabrication for the KSTAR completion in the year 2005.

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UR - http://www.scopus.com/inward/citedby.url?scp=0141997126&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0141997126

JO - IEEE International Conference on Plasma Science

JF - IEEE International Conference on Plasma Science

SN - 0730-9244

ER -